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来自白菜型油菜的一个绿色革命基因中的新型矮化突变。

A novel dwarfing mutation in a green revolution gene from Brassica rapa.

作者信息

Muangprom Amorntip, Thomas Stephen G, Sun Tai-Ping, Osborn Thomas C

机构信息

Department of Biology, Duke University, Durham, North Carolina 27708, USA.

出版信息

Plant Physiol. 2005 Mar;137(3):931-8. doi: 10.1104/pp.104.057646. Epub 2005 Feb 25.

DOI:10.1104/pp.104.057646
PMID:15734906
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1065394/
Abstract

Mutations in the biosynthesis or signaling pathways of gibberellin (GA) can cause dwarfing phenotypes in plants, and the use of such mutations in plant breeding was a major factor in the success of the Green Revolution. DELLA proteins are GA signaling repressors whose functions are conserved in different plant species. Recent studies show that GA promotes stem growth by causing degradation of DELLA proteins via the ubiquitin-proteasome pathway. The most widely utilized dwarfing alleles in wheat (Triticum aestivum; e.g. Rht-B1b and Rht-D1b) encode GA-resistant forms of a DELLA protein that function as dominant and constitutively active repressors of stem growth. All of the previously identified dominant DELLA repressors from several plant species contain N-terminal mutations. Here we report on a novel dwarf mutant from Brassica rapa (Brrga1-d) that is caused by substitution of a conserved amino acid in the C-terminal domain of a DELLA protein. Brrga1-d, like N-terminal DELLA mutants, retains its repressor function and accumulates to high levels, even in the presence of GA. However, unlike wild-type and N-terminal DELLA mutants, Brrga1-d does not interact with a protein component required for degradation, suggesting that the mutated amino acid causes dwarfism by preventing an interaction needed for its degradation. This novel mutation confers nondeleterious dwarf phenotypes when transferred to Arabidopsis (Arabidopsis thaliana) and oilseed rape (Brassica napus), indicating its potential usefulness in other crop species.

摘要

赤霉素(GA)生物合成或信号通路中的突变会导致植物出现矮化表型,而在植物育种中利用此类突变是绿色革命成功的一个主要因素。DELLA蛋白是GA信号抑制因子,其功能在不同植物物种中保守。最近的研究表明,GA通过泛素-蛋白酶体途径导致DELLA蛋白降解来促进茎的生长。小麦(Triticum aestivum)中应用最广泛的矮化等位基因(例如Rht-B1b和Rht-D1b)编码一种对GA有抗性的DELLA蛋白形式,该蛋白作为茎生长的显性和组成型活性抑制因子发挥作用。此前从几种植物物种中鉴定出的所有显性DELLA抑制因子都含有N端突变。在这里,我们报道了一个来自白菜(Brassica rapa)的新型矮化突变体(Brrga1-d),它是由DELLA蛋白C端结构域中一个保守氨基酸的替换引起的。Brrga1-d与N端DELLA突变体一样,即使在有GA的情况下也保留其抑制功能并积累到高水平。然而,与野生型和N端DELLA突变体不同的是,Brrga1-d不与降解所需的一种蛋白质成分相互作用,这表明突变的氨基酸通过阻止其降解所需的相互作用导致矮化。当这种新突变转移到拟南芥(Arabidopsis thaliana)和油菜(Brassica napus)中时,会赋予无害的矮化表型,表明其在其他作物物种中的潜在用途。

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GID2, an F-box subunit of the SCF E3 complex, specifically interacts with phosphorylated SLR1 protein and regulates the gibberellin-dependent degradation of SLR1 in rice.GID2是SCF E3复合体的一个F-box亚基,它特异性地与磷酸化的SLR1蛋白相互作用,并调节水稻中依赖赤霉素的SLR1降解。
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Theor Appl Genet. 2004 May;108(7):1378-84. doi: 10.1007/s00122-003-1551-2. Epub 2004 Jan 16.